C. Keith Ray on Nostr: "researchers from the Japan Advanced Institute of Science and Technology (JAIST) and ...
"researchers from the Japan Advanced Institute of Science and Technology (JAIST) and the University of Tokyo have designed a new type of bioinspired hydrogel that can generate hydrogen and oxygen by splitting water molecules using sunlight. This design can be a potential game changer in the quest for clean energy, as hydrogen is seen as a promising fuel for the future. Moreover, this advancement in hydrogen production could be compared to other clean energy technologies like solar photovoltaics and electrolysis-based hydrogen production. These methods rely on external energy sources, whereas the hydrogel system mimics nature by using sunlight directly to split water, potentially improving efficiency and reducing costs. Their study was published online in Chemical Communications."
https://www.sciencedaily.com/releases/2024/11/241106132651.htmPublished at
2024-11-08 02:34:01Event JSON
{
"id": "63794f056e7ff15a8572059b1714af54367dc009b1c86d9f489aa33fa6695923",
"pubkey": "e5da6b496a0eb52e3b1183ff564cbaee0648853ef828bff51cf2c951e41d8aa3",
"created_at": 1731033241,
"kind": 1,
"tags": [
[
"proxy",
"https://techhub.social/users/rayckeith/statuses/113444994545963463",
"activitypub"
]
],
"content": "\"researchers from the Japan Advanced Institute of Science and Technology (JAIST) and the University of Tokyo have designed a new type of bioinspired hydrogel that can generate hydrogen and oxygen by splitting water molecules using sunlight. This design can be a potential game changer in the quest for clean energy, as hydrogen is seen as a promising fuel for the future. Moreover, this advancement in hydrogen production could be compared to other clean energy technologies like solar photovoltaics and electrolysis-based hydrogen production. These methods rely on external energy sources, whereas the hydrogel system mimics nature by using sunlight directly to split water, potentially improving efficiency and reducing costs. Their study was published online in Chemical Communications.\"\nhttps://www.sciencedaily.com/releases/2024/11/241106132651.htm",
"sig": "06ccbe9ad5da8dc8414b125f668d3ceeb26c2591afd6c3fabb68bd7c495c7e75f07174dd8a8881ba551fc10fa778e7baa5b078791d2b915948a05c933195cc3d"
}
